Walton Marlei E, Ebert Douglas, Haller Ronald G
Veterans Affairs North Texas Health Care System, Dallas 75216, USA.
J Physiol. 2003 Apr 15;548(Pt 2):541-8. doi: 10.1113/jphysiol.2002.033761. Epub 2003 Feb 28.
Flux through anaplerotic pathways in skeletal muscle has not been evaluated quantitatively during both rest and contraction, nor have fibre type-specific rates of anaplerotic flux been studied. Steady-state analysis using 13C NMR spectroscopy enables calculation of Y (flux rate through anaplerotic pathways relative to tricarboxylic acid (TCA) cycle flux). Under inhalation anaesthesia, [2,4,6,8-13C4]octanoate was infused into the jugular vein of the intact rat (n = 10) and the sciatic nerve of one limb was stimulated at the voltage required to elicit maximal force output at 0.5 Hz. In resting muscle, Y was higher in soleus (0.41 +/- 0.22) versus white gastrocnemius (WG) (0.18 +/- 0.11). Y was 0.29 +/- 0.06 in the predominantly red portion of the gastrocnemius (RG) during rest. During contraction, Y was similar to the resting value in soleus (0.34 +/- 0.14), RG (0.20 +/- 0.04) and WG (0.15 +/- 0.08); Y was higher in soleus versus both RG and WG during contraction. These results demonstrate: (1) relative flux through anaplerotic pathways is 15-41 % of TCA cycle flux at rest and during muscle contraction, (2) higher relative anaplerotic flux in oxidative (soleus) versus glycolytic muscle (WG) during rest and in slow-twitch (soleus) versus fast-twitch (RG and WG) muscle during contraction, and (3) relative flux through anaplerotic pathways is maintained in all muscle fibre types during contraction, which indicates that absolute rates of anaplerotic flux rise in proportion to increased oxidation rates during contraction. These results are consistent with a sustained increase in substrate entry into and exit from the TCA cycle through anaplerotic pathways during contraction.
在静息和收缩状态下,尚未对骨骼肌中回补途径的通量进行定量评估,也未研究过回补通量的纤维类型特异性速率。使用13C核磁共振波谱进行的稳态分析能够计算Y(通过回补途径的通量率相对于三羧酸(TCA)循环通量)。在吸入麻醉下,将[2,4,6,8-13C4]辛酸注入完整大鼠(n = 10)的颈静脉,并以0.5 Hz时引发最大力输出所需的电压刺激一侧肢体的坐骨神经。在静息肌肉中,比目鱼肌的Y值(0.41±0.22)高于白肌腓肠肌(WG)(0.18±0.11)。静息时,腓肠肌主要为红色部分(RG)的Y值为0.29±0.06。在收缩过程中,比目鱼肌、RG和WG的Y值与静息值相似(分别为0.34±0.14、0.20±0.04和0.15±0.08);收缩期间,比目鱼肌的Y值高于RG和WG。这些结果表明:(1)在静息和肌肉收缩期间,通过回补途径的相对通量为TCA循环通量的15%-41%;(2)静息时,氧化型(比目鱼肌)肌肉相对于糖酵解型肌肉(WG)的回补通量相对较高,收缩时慢肌(比目鱼肌)相对于快肌(RG和WG)的回补通量相对较高;(3)收缩期间所有肌肉纤维类型中通过回补途径的相对通量均保持不变,这表明收缩期间回补通量的绝对速率与氧化速率的增加成比例上升。这些结果与收缩期间通过回补途径进入和离开TCA循环的底物持续增加一致。